Reprint of: The ins and outs of water dynamics in cold tolerant soil invertebrates

Many soil invertebrates have physiological characteristics in common with freshwater animals and represent an evolutionary transition from aquatic to terrestrial life forms. Their high cuticular permeability and ability to tolerate large modifications of internal osmolality are of particular importa...

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Published in:Journal of Thermal Biology
Main Author: Holmstrup, Martin
Format: Article in Journal/Newspaper
Language:English
Published: 2015
Subjects:
Arctic environments
Cryoprotective dehydration
Compatible osmolytes
Freeze tolerance
Soil invertebrates
COLLEMBOLAN ONYCHIURUS-ARCTICUS
NEMATODE PANAGROLAIMUS-DAVIDI
DENDROBAENA-OCTAEDRA SAVIGNY
SUBZERO TEMPERATURES
ANTARCTIC MIDGE
OVERWINTERING STRATEGIES
BELGICA-ANTARCTICA
CRYPTOPYGUS-ANTARCTICUS
TERRESTRIAL ARTHROPODS
Antarctic
Arctic
Antarc*
Antarctic midge
Antarctica
antarcticus
Belgica antarctica
Cryptopygus antarcticus
Online Access:https://pure.au.dk/portal/da/publications/reprint-of-the-ins-and-outs-of-water-dynamics-in-cold-tolerant-soil-invertebrates(50d2db4a-0e06-418e-be38-dc6c5bd1f3a7).html
https://doi.org/10.1016/j.jtherbio.2015.10.006
id ftuniaarhuspubl:oai:pure.atira.dk:publications/50d2db4a-0e06-418e-be38-dc6c5bd1f3a7
record_format openpolar
spelling ftuniaarhuspubl:oai:pure.atira.dk:publications/50d2db4a-0e06-418e-be38-dc6c5bd1f3a7 2023-05-15T13:51:40+02:00 Reprint of: The ins and outs of water dynamics in cold tolerant soil invertebrates Holmstrup, Martin 2015-12 https://pure.au.dk/portal/da/publications/reprint-of-the-ins-and-outs-of-water-dynamics-in-cold-tolerant-soil-invertebrates(50d2db4a-0e06-418e-be38-dc6c5bd1f3a7).html https://doi.org/10.1016/j.jtherbio.2015.10.006 eng eng info:eu-repo/semantics/restrictedAccess Holmstrup , M 2015 , ' Reprint of: The ins and outs of water dynamics in cold tolerant soil invertebrates ' , Journal of Thermal Biology , vol. 54 , pp. 30-36 . https://doi.org/10.1016/j.jtherbio.2015.10.006 Arctic environments Cryoprotective dehydration Compatible osmolytes Freeze tolerance Soil invertebrates COLLEMBOLAN ONYCHIURUS-ARCTICUS NEMATODE PANAGROLAIMUS-DAVIDI DENDROBAENA-OCTAEDRA SAVIGNY SUBZERO TEMPERATURES ANTARCTIC MIDGE OVERWINTERING STRATEGIES BELGICA-ANTARCTICA CRYPTOPYGUS-ANTARCTICUS TERRESTRIAL ARTHROPODS article 2015 ftuniaarhuspubl https://doi.org/10.1016/j.jtherbio.2015.10.006 2020-07-18T21:46:15Z Many soil invertebrates have physiological characteristics in common with freshwater animals and represent an evolutionary transition from aquatic to terrestrial life forms. Their high cuticular permeability and ability to tolerate large modifications of internal osmolality are of particular importance for their cold tolerance. A number of cold region species that spend some or most of their life-time in soil are in more or less intimate contact with soil ice during overwintering. Unless such species have effective barriers against cuticular water-transport, they have only two options for survival: tolerate internal freezing or dehydrate. The risk of internal ice formation may be substantial due to inoculative freezing and many species rely on freeze-tolerance for overwintering. If freezing does not occur, the desiccating power of external ice will cause the animal to dehydrate until vapor pressure equilibrium between body fluids and external ice has been reached. This cold tolerance mechanism is termed ayoprotective dehydration (CPD) and requires that the animal must be able to tolerate substantial dehydration. Even though CPD is essentially a freeze-avoidance strategy the associated physiological traits are more or less the same as those found in freeze tolerant species. The most well-known are accumulation of compatible osmolytes and molecular chaperones reducing or protecting against the stress caused by cellular dehydration. Environmental moisture levels of the habitat are important for which type of cold tolerance is employed, not only in an evolutionary context, but also within a single population. Some species use CPD under relatively dry conditions, but freeze tolerance when soil moisture is high. (C) 2015 Published by Elsevier Ltd. Article in Journal/Newspaper Antarc* Antarctic Antarctic midge Antarctica antarcticus Arctic Belgica antarctica Cryptopygus antarcticus Aarhus University: Research Antarctic Arctic Journal of Thermal Biology 54 30 36
institution Open Polar
collection Aarhus University: Research
op_collection_id ftuniaarhuspubl
language English
topic Arctic environments
Cryoprotective dehydration
Compatible osmolytes
Freeze tolerance
Soil invertebrates
COLLEMBOLAN ONYCHIURUS-ARCTICUS
NEMATODE PANAGROLAIMUS-DAVIDI
DENDROBAENA-OCTAEDRA SAVIGNY
SUBZERO TEMPERATURES
ANTARCTIC MIDGE
OVERWINTERING STRATEGIES
BELGICA-ANTARCTICA
CRYPTOPYGUS-ANTARCTICUS
TERRESTRIAL ARTHROPODS
spellingShingle Arctic environments
Cryoprotective dehydration
Compatible osmolytes
Freeze tolerance
Soil invertebrates
COLLEMBOLAN ONYCHIURUS-ARCTICUS
NEMATODE PANAGROLAIMUS-DAVIDI
DENDROBAENA-OCTAEDRA SAVIGNY
SUBZERO TEMPERATURES
ANTARCTIC MIDGE
OVERWINTERING STRATEGIES
BELGICA-ANTARCTICA
CRYPTOPYGUS-ANTARCTICUS
TERRESTRIAL ARTHROPODS
Holmstrup, Martin
Reprint of: The ins and outs of water dynamics in cold tolerant soil invertebrates
topic_facet Arctic environments
Cryoprotective dehydration
Compatible osmolytes
Freeze tolerance
Soil invertebrates
COLLEMBOLAN ONYCHIURUS-ARCTICUS
NEMATODE PANAGROLAIMUS-DAVIDI
DENDROBAENA-OCTAEDRA SAVIGNY
SUBZERO TEMPERATURES
ANTARCTIC MIDGE
OVERWINTERING STRATEGIES
BELGICA-ANTARCTICA
CRYPTOPYGUS-ANTARCTICUS
TERRESTRIAL ARTHROPODS
description Many soil invertebrates have physiological characteristics in common with freshwater animals and represent an evolutionary transition from aquatic to terrestrial life forms. Their high cuticular permeability and ability to tolerate large modifications of internal osmolality are of particular importance for their cold tolerance. A number of cold region species that spend some or most of their life-time in soil are in more or less intimate contact with soil ice during overwintering. Unless such species have effective barriers against cuticular water-transport, they have only two options for survival: tolerate internal freezing or dehydrate. The risk of internal ice formation may be substantial due to inoculative freezing and many species rely on freeze-tolerance for overwintering. If freezing does not occur, the desiccating power of external ice will cause the animal to dehydrate until vapor pressure equilibrium between body fluids and external ice has been reached. This cold tolerance mechanism is termed ayoprotective dehydration (CPD) and requires that the animal must be able to tolerate substantial dehydration. Even though CPD is essentially a freeze-avoidance strategy the associated physiological traits are more or less the same as those found in freeze tolerant species. The most well-known are accumulation of compatible osmolytes and molecular chaperones reducing or protecting against the stress caused by cellular dehydration. Environmental moisture levels of the habitat are important for which type of cold tolerance is employed, not only in an evolutionary context, but also within a single population. Some species use CPD under relatively dry conditions, but freeze tolerance when soil moisture is high. (C) 2015 Published by Elsevier Ltd.
format Article in Journal/Newspaper
author Holmstrup, Martin
author_facet Holmstrup, Martin
author_sort Holmstrup, Martin
title Reprint of: The ins and outs of water dynamics in cold tolerant soil invertebrates
title_short Reprint of: The ins and outs of water dynamics in cold tolerant soil invertebrates
title_full Reprint of: The ins and outs of water dynamics in cold tolerant soil invertebrates
title_fullStr Reprint of: The ins and outs of water dynamics in cold tolerant soil invertebrates
title_full_unstemmed Reprint of: The ins and outs of water dynamics in cold tolerant soil invertebrates
title_sort reprint of: the ins and outs of water dynamics in cold tolerant soil invertebrates
publishDate 2015
url https://pure.au.dk/portal/da/publications/reprint-of-the-ins-and-outs-of-water-dynamics-in-cold-tolerant-soil-invertebrates(50d2db4a-0e06-418e-be38-dc6c5bd1f3a7).html
https://doi.org/10.1016/j.jtherbio.2015.10.006
geographic Antarctic
Arctic
geographic_facet Antarctic
Arctic
genre Antarc*
Antarctic
Antarctic midge
Antarctica
antarcticus
Arctic
Belgica antarctica
Cryptopygus antarcticus
genre_facet Antarc*
Antarctic
Antarctic midge
Antarctica
antarcticus
Arctic
Belgica antarctica
Cryptopygus antarcticus
op_source Holmstrup , M 2015 , ' Reprint of: The ins and outs of water dynamics in cold tolerant soil invertebrates ' , Journal of Thermal Biology , vol. 54 , pp. 30-36 . https://doi.org/10.1016/j.jtherbio.2015.10.006
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.1016/j.jtherbio.2015.10.006
container_title Journal of Thermal Biology
container_volume 54
container_start_page 30
op_container_end_page 36
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